A heritable subset of the core rumen microbiome dictates dairy cow productivity and emissions

A 1000-cow study across four European countries was undertaken to understand to what extent ruminant microbiomes can be controlled by the host animal and to identify characteristics of the host rumen microbiome axis that determine productivity and methane emissions. A core rumen microbiome, phylogenetically linked and with a preserved hierarchical structure, was identified. A 39-member subset of the core formed hubs in co-occurrence networks linking microbiome structure to host genetics and phenotype (methane emissions, rumen and blood metabolites, and milk production efficiency). These phenotypes can be predicted from the core microbiome using machine learning algorithms. The heritable core microbes, therefore, present primary targets for rumen manipulation toward sustainable and environmentally friendly agriculture

Testing broad-spectrum and isoform-preferring HCN channel blockers for anticonvulsant properties in mice

Hyperpolarization-activated cyclic nucleotide-gated (HCN) channels have been implicated in the pathogenesis of epilepsy and consequently as targets for anticonvulsant drugs. Consistent with this, broad-spectrum block of HCN-mediated current (Ih) reduces seizure susceptibility in a variety of epilepsy models. However, HCN channel isoforms have distinct biophysical characteristics and anatomical expression suggesting that they may play different roles in setting neuronal excitability. Here we confirm that the broad-spectrum blocker ivabradine is effective at reducing seizure susceptibility in the s.c.PTZ seizure assay and extend this, showing efficacy of this drug in a thermogenic assay that models febrile seizures. Ivabradine is also effective at reducing thermogenic seizures in the Scn1a mouse model of Dravet syndrome in which febrile seizures are a feature. HCN isoform-preferring drugs were tested in the s.c.PTZ seizure assay. We confirm that the HCN4-preferring drug, EC18, is efficacious in reducing seizure susceptibility. Conversely, the HCN2/1-preferring drug, MEL55A, increased seizure susceptibility in the s.c.PTZ seizure assay. MEL57A, an HCN1-preferring drug, had no effect on seizure susceptibility. Mouse pharmacokinetic studies (for MEL55A and MEL57A) and screening against additional ion channels have not been thoroughly investigated on the HCN isoform-preferring compounds. Our results need to be considered in this light. Nevertheless, these data suggest that HCN isoform-selective block can have a differential impact on seizure susceptibility. This motivates the need to develop more HCN isoform-selective compounds to better explore this idea